Fundamentals of telecommunication technologies
Course: Computer Systems and Networks Engineering
Structural unit: Faculty of Radiophysics, Electronics and Computer Systems
Title
Fundamentals of telecommunication technologies
Code
ВБ 1.2
Module type
Вибіркова дисципліна для ОП
Educational cycle
First
Year of study when the component is delivered
2023/2024
Semester/trimester when the component is delivered
8 Semester
Number of ECTS credits allocated
4
Learning outcomes
The student must knows: The concept of telecommunications. Basics of wireless communications networks. Structure and operating principles of mobile phone generations and signaling networks. Features of the structure and operation of multiplexing and physical layer. Principles of operation of switching systems. Telephone line and transportation features. The evolution of the mobile phone generation. Principle of wireless and mobile networks. Principle and features of the Internet of Things. ICT models for business and communication services.
Form of study
Full-time form
Prerequisites and co-requisites
The discipline “Embedded Systems Programming” is based on a course of professional and practical training disciplines, in particular, “Mathematics”, “Computer Circuit Architecture”, “Applied Theory of Digital Automation”, “Computer Networks”
Course content
Embedded systems. Introduction to telecommunication technologies. Telecommunication network. Telephone network. Multiplexing. Switching Systems. Telephone and Transmission Systems. Global System for Mobile Communication "Architecture, Specification, Addresses and Identifiers, Operations, Protocol Stack, User Services, Security and Encryption, Wireless and Mobile Networks, Principle and features of the Internet of Things. ICT models for business and communication services.
Recommended or required reading and other learning resources/tools
1. Kumkov, Sergey I., Sergey Shabunin, and Stavros Syngellakis, eds. Advances in Information Technologies, Telecommunication, and Radioelectronics. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-37514-0.
2. Paolo, Bellavista, ed. Telecommunication systems and technologies. Oxford: Eolss Publishers, 2009.
3. L. Zhang, Y. Wu, G. K. Walker, W. Li, K. Salehian, and A. Florea, Improving LTE eMBMS With Extended OFDM Parameters and LayeredDivision-Multiplexing, IEEE Trans. Broadcast., vol. 63, no. 1, pp. 3247, 2017.
4. L. Zhang et al., Layered-Division Multiplexing: An Enabling Technology for Multicast/Broadcast Service Delivery in 5G, IEEE Communications Magazine, vol. 56, no. 3, pp. 8290, 2018.
5. P. Gnanasivam, Telecommunication Switching And Networks, New Age International, 2007. ISBN 812241950X, 9788122419504. 332 pages
Planned learning activities and teaching methods
Lectures, laboratory work, individual independent work
Assessment methods and criteria
- semester assessment: control is carried out as follows. The semester has two semantic modules. - final assessment (in the form of credit): credit form - written and oral. The test consists of 2 questions, each question is evaluated from 0 to 20 points. In total, you can get from 0 to 40 points for the test. The condition for achieving a positive grade for the discipline is to obtain at least 60 points, with a score of 2 [skills] and 4 [autonomy and responsibility] can not be less than 50% of the maximum level (15 and 5 points, respectively), grade for the test can not be less than 24 points. - conditions of admission to the test: the condition of admission to the test is the student's receipt of a total of not less than the critical-calculated minimum of 36 points per semester, and the delivery of all laboratory work.
Language of instruction
Ukrainian
Lecturers
This discipline is taught by the following teachers
Yevgen
Anatoliyovych
Oberemok
Department of Quantum Radio Physics and Nanoelectronics
Faculty of Radiophysics, Electronics and Computer Systems
Faculty of Radiophysics, Electronics and Computer Systems
Departments
The following departments are involved in teaching the above discipline
Department of Quantum Radio Physics and Nanoelectronics
Faculty of Radiophysics, Electronics and Computer Systems